[meteorite-list] trips to the Moon (Moon bases and meteorite recovery)

From: Michael Gilmer <meteoritemike_at_meteoritecentral.com>
Date: Tue, 28 Jun 2011 08:29:37 -0400
Message-ID: <BANLkTim-CdSm1SA1P3s0UyRD7tyrGtK02A_at_mail.gmail.com>

Hi Martin,

I'm no expert, I only play one on the met-list. ;)

But, meteoroids and micrometeoroids would arrive on a variety entry
angles and velocities. Some at steeper angles and high speeds, others
at shallow or oblique angles and lower speeds. ("lower" being
relative) I agree that the more friable types of meteorite would be
shattered or obliterated on contact with the lunar surface - probably
into unrecognizable bits and destined to become part of the lunar
regolith gumbo. Some robust meteorite types like irons, would
probably survive as well. Imagine a large "crater maker" type of
impactor, the energies involved would be enormous. There could well
be shock and shock heating effects that would char or blacken the
surviving shrapnel.

Since the lunar surface is predominately one narrow palette of
indigenous color, we can rule out easily detecting any meteorites at a
glance that are of that same color range - white, light grey, medium
grey, dark grey, But, higher contrast types should be more visible to
the trained eye - pallasites, stony iron, iron, Martian (!?), some
other achondrites. Or, mount a spectrometer to the exploration rover
and look for reflectance feedback from the landscape that matches
preset meteorite types.

I don't know, it's a fanciful whimsy across a distant and bleak world,
and it makes for good speculation. :)

Best regards,

MikeG

PS - we can see the larger impacts on the Moon here from Earth, by
chancing across a flash of light on the lunar surface. Do we have any
hard data on the approximate rate of impacts on the lunar surface?
Our Apollo astronauts were driving golf balls and tooling around in a
rover, and did any of them witness or sense any nearby or even distant
impacts while they were there? Just curious....

-- 
---------------------------------------------------------------------------------
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On 6/28/11, Martin Altmann <altmann at meteorite-martin.de> wrote:
> Hm Michael,
>
> question - if you haven't any atmosphere, which could slow down the incoming
> meteorids,
> how many would survive the impact with cosmic velocities, such rocks are
> typically travelling with in the inner solar system, to such a degree, that
> they would lie there in nice sizes usually called "stones"?
> (Hmmm and when I'll drive there around with my car, how could I spot them,
> if they haven't any fusion crust or a different color from oxidation...)
> And if they survived the impact, how long would they survive without being
> crunched, smashed, pulverized by other impacts? A little space weathering we
> have there, but else no weathering and no geological activities for 3
> billion years - but a permanent bombardment of small and large high velocity
> impacts - having hammered the complete lunar surface into a field of debris
> and dust.
> And if you look at the Apollo rocks or into your lunar meteorites, most of
> them witness an extraordinary violent history. Shocked, mixed, full of tiny
> fragments of different rocks, glasses, resolified dust...ect.
> On the other hand, iiif meteorites would survive all that on Moon,
> why then the astronauts didn't stumble every step over a meteorite, if they
> had 3 billion years to assemble there and no weathering, making them
> decaying?
>
> Would be my questions only (not knowledge).
>
> Martin
>
>
> -----Urspr?ngliche Nachricht-----
> Von: meteorite-list-bounces at meteoritecentral.com
> [mailto:meteorite-list-bounces at meteoritecentral.com] Im Auftrag von Michael
> Gilmer
> Gesendet: Dienstag, 28. Juni 2011 04:08
> An: James Beauchamp
> Cc: Edwin Thompson; meteorite-list at meteoritecentral.com
> Betreff: Re: [meteorite-list] trips to the Moon (Moon bases and meteorite
> recovery)
>
> Sorry for all of my typos - I meant to say :
>
> Well taken, and I agree.  Part of their mission was to retrieve lunar
> samples, but imagine how many meteorites could be found if a team was
> put on to the lunar surface with the primary focus of finding
> meteorites and ignoring native lunar materials.  :)
>
> I'll stop posting now, I am having typing issues and developing
> blabber mouth.  LOL
>
>
> On 6/27/11, Michael Gilmer <meteoritemike at gmail.com> wrote:
>> Hi James,
>>
>> Well taken, and I agree.  Part of their mission was to retrieve lunar
>> samples, but how imagine meteorites could be found if a team was put
>> on to the lunar surface with the primary focus of finding meteorites
>> and ignoring native lunar materials.  :)
>>
>> Maybe Acme H3 Industries, Inc, will have the spare room in their
>> underground base to lease out space to a meteorite hunting team, and
>> the necessary scientific equipment to use for the mission (modified
>> rovers, infrastructure, etc).
>>
>> Heck, the mining teams might "unearth" (unlune?) buried meteorites
>> from under layers of regolith.
>>
>> Best regards,
>>
>> MikeG
>>
>> --
>>
> ----------------------------------------------------------------------------
> -----
>> Galactic Stone & Ironworks - Meteorites & Amber (Michael Gilmer)
>>
>> Website - http://www.galactic-stone.com
>> Facebook - http://tinyurl.com/42h79my
>> News Feed - http://www.galactic-stone.com/rss/126516
>> Twitter - http://twitter.com/galacticstone
>> EOM - http://www.encyclopedia-of-meteorites.com/collection.aspx?id=1564
>>
> ----------------------------------------------------------------------------
> -----
>>
>>
>>
>> On 6/27/11, James Beauchamp <falcon99 at sbcglobal.net> wrote:
>>> " The Apollo astronauts were not meteorite hunters, nor did they have any
>>> specific mission or training involving meteorites."
>>>
>>> Mike, I don't think that's quite correct.  The Apollo crews were well
>>> versed
>>> in the expected geology, and were looking for quite a diverse lot of
>>> rocks.
>>>  They spent many months training with geologists.  Certainly, Dr. Schmitt
>>> was no exception on Apollo 17.  "From Earth to the Moon" episode 10 was
>>> an
>>> excellent, even a bit romanticized focus on the geology focus.
>>> I think the focus was (and should have been) more anti-meteorite.  We had
>>> plenty of those.  But we didn't have verified lunar samples - to include
>>> cores and other different types.  We needed more of those to verify the
>>> origins of our companion, and very little time and resources on-hand to
>>> get
>>> them.
>>> Just my thoughts on the matter.  Obviously, I fully admit I should stay
>>> in
>>> my engineering corner, but couldn't help poking a little.   :)
>>>
>>>
>>>
>>>
>>>
>>> --- On Mon, 6/27/11, Michael Gilmer <meteoritemike at gmail.com> wrote:
>>>
>>> From: Michael Gilmer <meteoritemike at gmail.com>
>>> Subject: Re: [meteorite-list] trips to the Moon (Moon bases and meteorite
>>> recovery)
>>> To: "Edwin Thompson" <etmeteorites at hotmail.com>
>>> Cc: meteorite-list at meteoritecentral.com
>>> Date: Monday, June 27, 2011, 7:43 PM
>>>
>>> Hi Edwin, Sterling, and List,
>>>
>>> I love a good science-fiction, science-fact, trip into speculation
>>> land.  It reminds me of the old pulp sci-fi novels from the 50's and
>>> 60's that I have read, with rocketships and moon bases.
>>>
>>> Cosmic rays are not the only threat, there are also micro-meteorites
>>> and meteorites.  The Late Heavy Bombardment is long over, but there is
>>> still a lot of debris peppering the Earth and Moon on a regular basis.
>>>  With no atmosphere, the lunar surface is basically naked to incoming
>>> impactors.  A base facility on the lunar surface would be subject to
>>> high-velocity impacts on a random basis.
>>>
>>> Now we can all imagine how the lunar surface is probably littered with
>>> plentiful meteorites.  The Apollo astronauts were not meteorite
>>> hunters, nor did they have any specific mission or training involving
>>> meteorites.  The first meteorite recovery team to be stationed on the
>>> Moon would be the very first people to hunt the surface - the opposite
>>> of being "hunted out".  The problem is the lethal environment
>>> involved.  It would be a death-trap full of meteorites if not handled
>>> properly.  The Apollo astronauts could not stay out for the extended
>>> periods necessary to walk a grid or do a meaningful amount of
>>> searching for suspect rocks.  Although we have made some advancements
>>> since then, the lunar surface is still the most hostile, alien, and
>>> lethal environment that an Earthly meteorite hunter could imagine.
>>> Our modern day meteornauts on the Moon would have to rely on radar,
>>> remote rovers, and man-operated rovers.
>>>
>>> To have any permanent presence on the Moon, the surface would need a
>>> warning system for incoming impactors.  We can assume an early-warning
>>> detection system, partially automated, that consists of satellites and
>>> surface-based radars, telescopes, and other sensors.  This warning
>>> system would detect potential impactors that are large enough to
>>> damage facilities or personnel. So, we could have a lunar rover that
>>> could carry a small team of 2 individuals over a long distance with a
>>> meaningful duration (say, several hours, or even "overnight" in some
>>> cases.).  These individuals would be dispatched to retrieve
>>> large/heavy meteorites that smaller unmanned rovers could not pick up.
>>>  They could safely travel the surface (relatively speaking) and they
>>> could be warned to evade/avoid a potentially deadly strike by the
>>> warning system.  They would still have to worry about the rare fluke
>>> micro-meteorite or one that slips through the detection system, but it
>>> would be slightly better odds than a crap-shoot.
>>>
>>> The bulk of the searching and retrieval would be accomplished by
>>> robust remote-operately rovers.  These would be larger than the
>>> current Mars rovers we know so well (thanks for the always reliable
>>> updates Mr. Baalke!), but small enough to be produced on a low to
>>> modest budget.  Essentially it would be a "wander and grab" rover with
>>> a sophisticated optical system than can scan the lunar surface in high
>>> resolution and provide a "first person" view to the rover operator who
>>> is located miles away in an underground facility.   It's main
>>> attributes would be quickness (to cover larger amounts of real estate
>>> in a much shorter time span than today's rovers), keen eyes (cameras),
>>> and economy of travel (able to stay afield for extended periods of
>>> time).
>>>
>>> The rover would also have a robotic arm and a collection bin than can
>>> be hermetically sealed.  The operator would use the rover to locate
>>> and retrieve all meteorites within the operating range of the rover.
>>> Those meteorites which are too large, too heavy, or too numerous for
>>> the rover to recover, would be assigned to a manned rover mission to
>>> recover the specimens.
>>>
>>> I don't think there would be a lunar base built just to retrieve
>>> meteorites.  However, one can envision a scientific base that is an
>>> all-purpose facility to house a number of teams that are based there
>>> for extended periods of time and are rotated in and out.  Astronomers,
>>> chemists, physicists, geologists....the potential uses for a lunar
>>> surface facility would be many and varied, and meteorites could be one
>>> of those missions.
>>>
>>> Instead of ANSMET, we could have MOONMET - now who is going to apply
>>> for the first expedition?
>>>
>>> Best regards,
>>>
>>> MikeG
>>>
>>> --
>>>
> ----------------------------------------------------------------------------
> -----
>>> Galactic Stone & Ironworks - Meteorites & Amber (Michael Gilmer)
>>>
>>> Website - http://www.galactic-stone.com
>>> Facebook - http://tinyurl.com/42h79my
>>> News Feed - http://www.galactic-stone.com/rss/126516
>>> Twitter - http://twitter.com/galacticstone
>>> EOM - http://www.encyclopedia-of-meteorites.com/collection.aspx?id=1564
>>>
> ----------------------------------------------------------------------------
> -----
>>>
>>>
>>>
>>> On 6/27/11, Edwin Thompson <etmeteorites at hotmail.com> wrote:
>>>>
>>>> http://www.space.com/1111-private-moon-trips-forecast.html
>>>>
>>>>
>>>> Dear fellow listers, for only 100 million dollars you can go to the moon
>>>> and
>>>> gather your own Lunar specimens. It could be a very profitable
>>>> enterprise.
>>>> But the rumor mill has it that China will be going to the Moon next. If
>>>> you
>>>> go there be sure to dodge those nasty cosmic rays.
>>>>
>>>> There is a society of brainiacs that has designed a substantial Moon
>>>> base.
>>>> Sadly that facility must be built beneath the Lunar surface in a
>>>> volcanic
>>>> cavern to shield the inhabitants from cosmic ray exposure.
>>>>
>>>>
>>>> Cheers, E.T.
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>>
>
>
> --
> ----------------------------------------------------------------------------
> -----
> Galactic Stone & Ironworks - Meteorites & Amber (Michael Gilmer)
>
> Website - http://www.galactic-stone.com
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Received on Tue 28 Jun 2011 08:29:37 AM PDT